neingeist
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arduinisten
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Eve Entropia 15 years ago
parent 9c23f06915
commit 572138141b

@ -1,134 +0,0 @@
#include <avr/io.h>
#include <avr/interrupt.h>
#include <avr/delay.h>
// number of timer0 overflows/sec
#define INT_PER_SEC F_CPU/1/256
// Frequencies (in Hz) of notes
#define F_FSH_4 370
#define F_A_4 440
#define F_B_4 494
#define F_E_4 330
#define F_CSH_5 554
#define F_D_5 587
#define F_FSH_5 740
#define F_CSH_4 277
#define F_GSH_4 415
// number of timer0 overflows for notes
#define REST -1 // special case
#define FSH_4 INT_PER_SEC/F_FSH_4
#define A_4 INT_PER_SEC/F_A_4
#define B_4 INT_PER_SEC/F_B_4
#define E_4 INT_PER_SEC/F_E_4
#define CSH_5 INT_PER_SEC/F_CSH_5
#define D_5 INT_PER_SEC/F_D_5
#define FSH_5 INT_PER_SEC/F_FSH_5
#define CSH_4 INT_PER_SEC/F_CSH_4
#define GSH_4 INT_PER_SEC/F_GSH_4
#define SEMIQUAVER_TIME 60 // ms
#define BREATH_TIME 20 // ms
#include "WProgram.h"
void play(int32_t note, uint32_t len);
void setup();
void loop();
volatile uint32_t intrs = 0;
volatile int32_t curNote = REST;
// TIMER0 overflow
ISR(TIMER0_OVF_vect)
{
if (curNote == REST)
intrs = 0;
else
{
intrs++;
if (intrs >= curNote)
{
PORTD ^= _BV(PD4);
intrs = 0;
}
}
}
void play(int32_t note, uint32_t len)
{
int i;
curNote = note;
for (i = 0; i< len; i++)
_delay_ms(SEMIQUAVER_TIME);
curNote = REST;
_delay_ms(BREATH_TIME);
}
void setup() {
/* setup clock divider. Timer0 overflows on counting to 256.
* 16Mhz / 1 (CS0=1) = 16000000 increments/sec. Overflows every 256.
*/
TCCR0B |= _BV(CS00);
// enable overflow interrupts
TIMSK0 |= _BV(TOIE0);
// PD4 as output
DDRD = _BV(PD4);
TCNT0 = 0;
intrs = 0;
curNote = REST;
// enable interrupts
sei();
}
void loop() {
// Axel F
play(FSH_4, 2);
play(REST, 2);
play(A_4, 3);
play(FSH_4, 2);
play(FSH_4, 1);
play(B_4, 2);
play(FSH_4, 2);
play(E_4, 2);
play(FSH_4, 2);
play(REST, 2);
play(CSH_5, 3);
play(FSH_4, 2);
play(FSH_4, 1);
play(D_5, 2);
play(CSH_5, 2);
play(A_4, 2);
play(FSH_4, 2);
play(CSH_5, 2);
play(FSH_5, 2);
play(FSH_4, 1);
play(E_4, 2);
play(E_4, 1);
play(CSH_4, 2);
play(GSH_4, 2);
play(FSH_4, 6);
play(REST, 12);
delay(3000);
}
int main(void)
{
init();
setup();
for (;;)
loop();
return 0;
}

@ -1,134 +0,0 @@
#include <avr/io.h>
#include <avr/interrupt.h>
#include <avr/delay.h>
// number of timer0 overflows/sec
#define INT_PER_SEC F_CPU/1/256
// Frequencies (in Hz) of notes
#define F_FSH_4 370
#define F_A_4 440
#define F_B_4 494
#define F_E_4 330
#define F_CSH_5 554
#define F_D_5 587
#define F_FSH_5 740
#define F_CSH_4 277
#define F_GSH_4 415
// number of timer0 overflows for notes
#define REST -1 // special case
#define FSH_4 INT_PER_SEC/F_FSH_4
#define A_4 INT_PER_SEC/F_A_4
#define B_4 INT_PER_SEC/F_B_4
#define E_4 INT_PER_SEC/F_E_4
#define CSH_5 INT_PER_SEC/F_CSH_5
#define D_5 INT_PER_SEC/F_D_5
#define FSH_5 INT_PER_SEC/F_FSH_5
#define CSH_4 INT_PER_SEC/F_CSH_4
#define GSH_4 INT_PER_SEC/F_GSH_4
#define SEMIQUAVER_TIME 60 // ms
#define BREATH_TIME 20 // ms
#include "WProgram.h"
void play(int32_t note, uint32_t len);
int main(void);
volatile uint32_t intrs = 0;
volatile int32_t curNote = REST;
// TIMER0 overflow
ISR(TIMER0_OVF_vect)
{
if (curNote == REST)
intrs = 0;
else
{
intrs++;
if (intrs >= curNote)
{
PORTD ^= _BV(PD4);
intrs = 0;
}
}
}
void play(int32_t note, uint32_t len)
{
int i;
curNote = note;
for (i = 0; i< len; i++)
_delay_ms(SEMIQUAVER_TIME);
curNote = REST;
_delay_ms(BREATH_TIME);
}
int main(void)
{
/* setup clock divider. Timer0 overflows on counting to 256.
* 16Mhz / 1 (CS0=1) = 16000000 increments/sec. Overflows every 256.
*/
TCCR0B |= _BV(CS00);
// enable overflow interrupts
TIMSK0 |= _BV(TOIE0);
// PD4 as output
DDRD = _BV(PD4);
TCNT0 = 0;
intrs = 0;
curNote = REST;
// enable interrupts
sei();
while (1)
{
// Axel F
play(FSH_4, 2);
play(REST, 2);
play(A_4, 3);
play(FSH_4, 2);
play(FSH_4, 1);
play(B_4, 2);
play(FSH_4, 2);
play(E_4, 2);
play(FSH_4, 2);
play(REST, 2);
play(CSH_5, 3);
play(FSH_4, 2);
play(FSH_4, 1);
play(D_5, 2);
play(CSH_5, 2);
play(A_4, 2);
play(FSH_4, 2);
play(CSH_5, 2);
play(FSH_5, 2);
play(FSH_4, 1);
play(E_4, 2);
play(E_4, 1);
play(CSH_4, 2);
play(GSH_4, 2);
play(FSH_4, 6);
play(REST, 12);
}
delay(3000);
}
int main(void)
{
init();
setup();
for (;;)
loop();
return 0;
}